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Sic06/FrameworkLocal/RTEquipmentLibrary/HardwareUnits/Robots/YaskawaRobots/YaskawaRobot.cs

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130 KiB
C#
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using System;
using System.Collections.Generic;
using System.IO.Ports;
using System.Linq;
using System.Text;
using Aitex.Core.Common.DeviceData;
using Aitex.Core.RT.Device;
using Aitex.Core.RT.Device.Unit;
using Aitex.Core.RT.Event;
using Aitex.Core.RT.Log;
using Aitex.Core.RT.OperationCenter;
using Aitex.Core.RT.SCCore;
using Aitex.Core.Util;
using MECF.Framework.Common.Communications;
using MECF.Framework.Common.Device.Bases;
using MECF.Framework.RT.EquipmentLibrary.HardwareUnits.Common;
using Newtonsoft.Json;
using MECF.Framework.RT.EquipmentLibrary.HardwareUnits.Robots.RobotBase;
using MECF.Framework.Common.Equipment;
using MECF.Framework.Common.SubstrateTrackings;
using System.Threading;
using Aitex.Core.Common;
using Aitex.Core.RT.DataCenter;
using MECF.Framework.RT.EquipmentLibrary.HardwareUnits.Robot;
using MECF.Framework.RT.EquipmentLibrary.HardwareUnits.LoadPorts.LoadPortBase;
using EventType = Aitex.Core.RT.Event.EventType;
using Aitex.Core.RT.Device.Devices;
namespace MECF.Framework.RT.EquipmentLibrary.HardwareUnits.Robots.YaskawaRobots
{
public class YaskawaSR100Robot : RobotBaseDevice, IConnection
{
public int UnitNumber
{
get;private set;
}
private bool isSimulatorMode;
private string _scRoot;
//private string _ipaddress;
public YaskawaTokenGenerator SeqnoGenerator { get; private set; }
public bool IsEnableSeqNo { get; private set; }
public bool IsEnableCheckSum { get; private set; }
public int CurrentSeqNo { get; set; }
public string PortName;
private string _address;
private bool _enableLog;
private YaskawaRobotConnection _connection;
private R_TRIG _trigError = new R_TRIG();
private R_TRIG _trigCommunicationError = new R_TRIG();
private R_TRIG _trigRetryConnect = new R_TRIG();
public string Address => _address;
private PeriodicJob _thread;
private object _locker = new object();
private LinkedList<HandlerBase> _lstHandlers = new LinkedList<HandlerBase>();
private IoSensor _diRobotReady = null; //Normal ON
private IoSensor _diRobotBlade1WaferOn = null; //Off when wafer present
private IoSensor _diRobotBlade2WaferOn = null;
private IoSensor _diRobotError = null; //Normal ON
private IoSensor _diTPinUse = null;
private IoTrigger _doRobotHold = null; // Normal ON
public ModuleName CurrentInteractiveModule { get; private set; }
public bool IsConnected => throw new NotImplementedException();
public bool IsGrippedBlade1 { get; private set; }
public bool IsGrippedBlade2 { get; private set; }
public bool IsPermittedInterlock1 { get; private set; }
public bool IsPermittedInterlock2 { get; private set; }
public bool IsPermittedInterlock3 { get; private set; }
public bool IsPermittedInterlock4 { get; private set; }
public bool IsPermittedInterlock5 { get; private set; }
public bool IsPermittedInterlock6 { get; private set; }
public bool IsPermittedInterlock7 { get; private set; }
public bool IsPermittedInterlock8 { get; private set; }
public float CurrentThetaPosition { get; private set; }
public float CurrentExtensionPosition { get; private set; }
public float CurrentArm1Position { get; private set; }
public float CurrentArm2Position { get; private set; }
public float CurrentZPosition { get; private set; }
public float CommandThetaPosition { get; private set; }
public float CommandExtensionPosition { get; private set; }
public float CommandArm1Position { get; private set; }
public float CommandArm2Position { get; private set; }
public float CommandZPosition { get; private set; }
public int SpeedLevel { get; private set; }
public int SpeedLevelSetting { get; private set; }
public string ReadMemorySpec { get; private set; }
public string ReadTransferStation { get; private set; }
public int ReadSlotNumber { get; private set; }
public string ReadArmPosture { get; private set; }
public RobotArmEnum ReadBladeNo { get; private set; }
public YaskawaPositonEnum ReadPositionType { get; private set; }
public float ReadThetaPosition { get; private set; }
public float ReadExtensionPosition { get; private set; }
public float ReadArm1Position { get; private set; }
public float ReadArm2Position { get; private set; }
public float ReadZPosition { get; private set; }
public Dictionary<string, string> ReadStationItemValues { get; private set; } = new Dictionary<string, string>();
public Dictionary<string, string> ReadStationItemContents { get; private set; } = new Dictionary<string, string>();
public string ReadParameterType { get; private set; }
public string ReadParameterNo { get; private set; }
public string ReadParameterValue { get; private set; }
public bool IsManipulatorBatteryLow { get; private set; }
public bool IsCommandExecutionReady { get; private set; }
public bool IsServoON { get; private set; }
public bool IsErrorOccurred { get; private set; }
public bool IsControllerBatteryLow { get; private set; }
public bool IsCheckInterlockWaferPresenceOnBlade1 { get; private set; }
public bool IsCheckInterlockWaferPresenceOnBlade2 { get; private set; }
public bool IsCheckInterlockPAOp { get; private set; }
public bool IsCheckInterlockPAWaferStatus { get; private set; }
public bool IsCheckInterlockPAWaferStatusByCCD { get; private set; }
public string RobotSystemVersion { get; private set; }
public string RobotSoftwareVersion { get; private set; }
public string ReadMappingTransferStation { get; private set; }
public int ReadMappingSlotNumbers { get; private set; }
public string ReadSlotMap { get; private set; }
public Dictionary<string, float> ReadMappingCalibrationResult { get; private set; }
public YaskawaSR100Robot(string module, string name, string scRoot,IoSensor[] dis,IoTrigger[] dos) : base(module, name)
{
Module = module;
Name = name;
isSimulatorMode = SC.ContainsItem("System.IsSimulatorMode") ? SC.GetValue<bool>("System.IsSimulatorMode") : false;
_scRoot = scRoot;
_address = SC.GetStringValue($"{_scRoot}.{Name}.Address");
_enableLog = SC.GetValue<bool>($"{_scRoot}.{Name}.EnableLogMessage");
UnitNumber = SC.GetValue<int>($"{_scRoot}.{Name}.UnitNumber");
IsEnableCheckSum = SC.GetValue<bool>($"{_scRoot}.{Name}.EnableCheckSum");
IsEnableSeqNo = SC.GetValue<bool>($"{_scRoot}.{Name}.EnableSeqNo");
SpeedLevelSetting = SC.GetValue<int>($"{_scRoot}.{Name}.SpeedLevel");
_connection = new YaskawaRobotConnection(this,_address);
_connection.EnableLog(_enableLog);
SeqnoGenerator = new YaskawaTokenGenerator($"{_scRoot}.{Name}.CommunicationToken");
if(dis !=null && dis.Length >=5)
{
_diRobotReady = dis[0];
_diRobotBlade1WaferOn = dis[1];
_diRobotBlade2WaferOn = dis[2];
_diRobotError = dis[3];
_diTPinUse = dis[4];
_diRobotError.OnSignalChanged += _diRobotError_OnSignalChanged;
_diTPinUse.OnSignalChanged += _diTPinUse_OnSignalChanged;
}
if(dos!=null && dos.Length >=1)
{
_doRobotHold = dos[0];
}
ConnectionManager.Instance.Subscribe($"{Name}", _connection);
_thread = new PeriodicJob(10, OnTimer, $"{_scRoot}.{Name} MonitorHandler", true);
ReadStationItemContents.Add("00", "Upward offset");
ReadStationItemContents.Add("01", "Downword offset");
ReadStationItemContents.Add("02", "Grip position offset");
ReadStationItemContents.Add("06", "G2/P3 offset in the extending direction");
ReadStationItemContents.Add("08", "Put downward offset");
ReadStationItemContents.Add("70", "Get operation Movet_grip function yes/no");
ReadStationItemContents.Add("71", "Get operation rsing pattern");
ReadStationItemContents.Add("80", "Put operation Move_grip function yes/no");
ReadStationItemContents.Add("81", "Put operation dropping pattern");
ReadStationItemContents.Add("50", "Slot Numbers");
ReadStationItemContents.Add("30", "Slot pitch(Left elbow,Blade1)");
ReadStationItemContents.Add("31", "Slot pitch(Left elbow,Blade2)");
ReadStationItemContents.Add("32", "Slot pitch(Rigth elbow,Blade1)");
ReadStationItemContents.Add("33", "Slot pitch(Right elbow,Blade2)");
ResetPropertiesAndResponses();
RegisterSpecialData();
RegisterAlarm();
}
private void RegisterAlarm()
{
EV.Subscribe(new EventItem("Alarm", "RobotError020", $"{Name} Error:Robot Occurred Error:Secondary power off.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError021", $"{Name} Error:Robot Occurred Error:Secondary power on.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError040", $"{Name} Error:Robot Occurred Error:In TEACH Mode.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError050", $"{Name} Error:Robot Occurred Error:Unit is in motion.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError051", $"{Name} Error:Robot Occurred Error:Unable to set pitch between slots.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError052", $"{Name} Error:Robot Occurred Error:Unable to restart motion.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError053", $"{Name} Error:Robot Occurred Error:Ready position move incomplete.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError054", $"{Name} Error:Robot Occurred Error:Alignment Ready position move incomplete.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError055", $"{Name} Error:Robot Occurred Error:Improper station type.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError058", $"{Name} Error:Robot Occurred Error:Command not supported 1-1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError059", $"{Name} Error:Robot Occurred Error:Invalid transfer point.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError05A", $"{Name} Error:Robot Occurred Error:Linear motion failed.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError05C", $"{Name} Error:Robot Occurred Error:Unable to reference wafer alignment result.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError05d", $"{Name} Error:Robot Occurred Error:Unable to perform arm calibration.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError05E", $"{Name} Error:Robot Occurred Error:Unable to read mapping data.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError05F", $"{Name} Error:Robot Occurred Error:Data Upload/Download in progress.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError061", $"{Name} Error:Robot Occurred Error:Unable to motion.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError064", $"{Name} Error:Robot Occurred Error:Lifter interference error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError070", $"{Name} Error:Robot Occurred Error:Bottom slot position record incomplete.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError071", $"{Name} Error:Robot Occurred Error:Top slot position record incomplete.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError088", $"{Name} Error:Robot Occurred Error:Position generating error 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError089", $"{Name} Error:Robot Occurred Error:Position generating error 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError08A", $"{Name} Error:Robot Occurred Error:Position generating error 3.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError08b", $"{Name} Error:Robot Occurred Error:Position generating error 4.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError08C", $"{Name} Error:Robot Occurred Error:Position generating error 5.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError08d", $"{Name} Error:Robot Occurred Error:Position generating error 6.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError090", $"{Name} Error:Robot Occurred Error:Host parameter out of range.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError0A0", $"{Name} Error:Robot Occurred Error:Alignment motion error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError0E0", $"{Name} Error:Robot Occurred Error:Teach position adjustmentoffset amount limit error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError0F0", $"{Name} Error:Robot Occurred Error:Voltage drop warning.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*06", $"{Name} Error:Robot Occurred Error:Amplifier Type Mismatch.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*07", $"{Name} Error:Robot Occurred Error:Encoder Type Mismatch.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*10", $"{Name} Error:Robot Occurred Error:Overflow Current.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*30", $"{Name} Error:Robot Occurred Error:Regeneration Error Detected.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*40", $"{Name} Error:Robot Occurred Error:Excess Voltage (converter).", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*41", $"{Name} Error:Robot Occurred Error:Insufficient Voltage.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*45", $"{Name} Error:Robot Occurred Error:Brake circuit error 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*46", $"{Name} Error:Robot Occurred Error:Converter ready signal error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*47", $"{Name} Error:Robot Occurred Error:Input power error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*48", $"{Name} Error:Robot Occurred Error:Converter main circuit chargeerror.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*49", $"{Name} Error:Robot Occurred Error:Amplifier ready signal error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*51", $"{Name} Error:Robot Occurred Error:Excessive Speed.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*71", $"{Name} Error:Robot Occurred Error:Momentary Overload (Motor).", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*72", $"{Name} Error:Robot Occurred Error:Continuous Overload (Motor).", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*78", $"{Name} Error:Robot Occurred Error:Overload (Converter).", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*7b", $"{Name} Error:Robot Occurred Error:Amplifier overheat.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*7C", $"{Name} Error:Robot Occurred Error:Continuous Overload(Amplifier).", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*7d", $"{Name} Error:Robot Occurred Error:Momentary Overload.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*81", $"{Name} Error:Robot Occurred Error:Absolute Encoder Back-upError.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*83", $"{Name} Error:Robot Occurred Error:Absolute Encoder Battery.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*84", $"{Name} Error:Robot Occurred Error:Encoder Data Error 2-1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*85", $"{Name} Error:Robot Occurred Error:Encoder Excessive Speed.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*86", $"{Name} Error:Robot Occurred Error:Encoder Overheat.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*88", $"{Name} Error:Robot Occurred Error:Encoder error 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*89", $"{Name} Error:Robot Occurred Error:Encoder Command failed.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*8A", $"{Name} Error:Robot Occurred Error:Encoder multi-turn range.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*8C", $"{Name} Error:Robot Occurred Error:Encoder Reset not completed.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*98", $"{Name} Error:Robot Occurred Error:Servo parameter error 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*9A", $"{Name} Error:Robot Occurred Error:Feedback Over Flow.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*b4", $"{Name} Error:Robot Occurred Error:Servo Control Board Failure.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*bC", $"{Name} Error:Robot Occurred Error:Encoder error 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*C1", $"{Name} Error:Robot Occurred Error:Motor runaway detection.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*C9", $"{Name} Error:Robot Occurred Error:Encoder Communication.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*CE", $"{Name} Error:Robot Occurred Error:Encoder error 3.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*CF", $"{Name} Error:Robot Occurred Error:Encoder error 4.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*d0", $"{Name} Error:Robot Occurred Error:Position deviation error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*d1", $"{Name} Error:Robot Occurred Error:Position deviation saturation.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*d2", $"{Name} Error:Robot Occurred Error:Motor directive position error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*d4", $"{Name} Error:Robot Occurred Error:Servo Tracking Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError*F1", $"{Name} Error:Robot Occurred Error:Phase loss.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorE*1", $"{Name} Error:Robot Occurred Error:Positioning Timeout.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorE*d", $"{Name} Error:Robot Occurred Error:Command not supported 1-2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorE*E", $"{Name} Error:Robot Occurred Error:Communication Error(internal controller) 1-1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorE*F", $"{Name} Error:Robot Occurred Error:Servo control board responsetimeout 1..", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError701", $"{Name} Error:Robot Occurred Error:ROM Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError703", $"{Name} Error:Robot Occurred Error:Communication Error(internal controller) 2-1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError704", $"{Name} Error:Robot Occurred Error:Communication Error (internal controller) 2-2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError705", $"{Name} Error:Robot Occurred Error:Communication Error(internal controller) 2-3.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError706", $"{Name} Error:Robot Occurred Error:Servo system error 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError707", $"{Name} Error:Robot Occurred Error:Servo system error 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError709", $"{Name} Error:Robot Occurred Error:Current feedback error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError70A", $"{Name} Error:Robot Occurred Error:Power Lost.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError70b", $"{Name} Error:Robot Occurred Error:Rush Current PreventionRelay Abnormal.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError70C", $"{Name} Error:Robot Occurred Error:Converter mismatch.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError70F", $"{Name} Error:Robot Occurred Error:Servo control board response timeout 2..", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError713", $"{Name} Error:Robot Occurred Error:DB error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError714", $"{Name} Error:Robot Occurred Error:Converter charge Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError715", $"{Name} Error:Robot Occurred Error:Servo OFF Status Error 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError716", $"{Name} Error:Robot Occurred Error:Servo ON Status Error 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError717", $"{Name} Error:Robot Occurred Error:Servo OFF Status Error 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError718", $"{Name} Error:Robot Occurred Error:Servo ON Status Error 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError719", $"{Name} Error:Robot Occurred Error:Servo On Abnormal.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError71A", $"{Name} Error:Robot Occurred Error:Brake circuit error 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError71b", $"{Name} Error:Robot Occurred Error:Brake circuit error 3.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError71C", $"{Name} Error:Robot Occurred Error:Power relay error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError721", $"{Name} Error:Robot Occurred Error:Servo parameter error 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError722", $"{Name} Error:Robot Occurred Error:Servo parameter error 3.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError725", $"{Name} Error:Robot Occurred Error:Converter Overheat.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError726", $"{Name} Error:Robot Occurred Error:Communication Error(internal controller) 2-4.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError727", $"{Name} Error:Robot Occurred Error:Command not supported 1-2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError728", $"{Name} Error:Robot Occurred Error:Communication Error(internal controller) 2-5.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError729", $"{Name} Error:Robot Occurred Error:Servo system error 3.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError72A", $"{Name} Error:Robot Occurred Error:Servo system error 4.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError72b", $"{Name} Error:Robot Occurred Error:Servo parameter error 4.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError730", $"{Name} Error:Robot Occurred Error:Amp module disconnected..", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError732", $"{Name} Error:Robot Occurred Error:Servo parameter error 5.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError733", $"{Name} Error:Robot Occurred Error:Servo parameter error 6.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError734", $"{Name} Error:Robot Occurred Error:Servo parameter error 7.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError735", $"{Name} Error:Robot Occurred Error:Servo parameter error 8.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError73F", $"{Name} Error:Robot Occurred Error:Undefined Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError740", $"{Name} Error:Robot Occurred Error:Encoder Status Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError741", $"{Name} Error:Robot Occurred Error:Servo system error 5.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError742", $"{Name} Error:Robot Occurred Error:Servo system error 6.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError743", $"{Name} Error:Robot Occurred Error:Servo system error 7.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError744", $"{Name} Error:Robot Occurred Error:Servo system error 8.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError745", $"{Name} Error:Robot Occurred Error:Servo system error 9.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError746", $"{Name} Error:Robot Occurred Error:Servo system error 10.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError74A", $"{Name} Error:Robot Occurred Error:Servo system error 11.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError74b", $"{Name} Error:Robot Occurred Error:Servo system error 12.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError74C", $"{Name} Error:Robot Occurred Error:Servo system error 13.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError74d", $"{Name} Error:Robot Occurred Error:Servo system error 14.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError7A0", $"{Name} Error:Robot Occurred Error:Communication Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError7A1", $"{Name} Error:Robot Occurred Error:Communication Error(internal controller) 3-2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError7A2", $"{Name} Error:Robot Occurred Error:Command not supported 3-1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError7A3", $"{Name} Error:Robot Occurred Error:Data buffer full.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError7A4", $"{Name} Error:Robot Occurred Error:Command not supported 3-2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError7A5", $"{Name} Error:Robot Occurred Error:Encoder data error 3-1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError7A6", $"{Name} Error:Robot Occurred Error:Command not supported 3-3.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError7AE", $"{Name} Error:Robot Occurred Error:Communication Error(internal controller) 1-2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError7AF", $"{Name} Error:Robot Occurred Error:Communication Error(internal controller) 1-3.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError7b0", $"{Name} Error:Robot Occurred Error:CCD sensor abnormal 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError7b4", $"{Name} Error:Robot Occurred Error:CCD sensor abnormal 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError7b5", $"{Name} Error:Robot Occurred Error:CCD sensor abnormal 3.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError7C0", $"{Name} Error:Robot Occurred Error:PAIF board Failure 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError7C1", $"{Name} Error:Robot Occurred Error:PAIF board Failure 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError7C2", $"{Name} Error:Robot Occurred Error:PAIF board Failure 3.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError7C3", $"{Name} Error:Robot Occurred Error:CCD sensor abnormal 4.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError7CF", $"{Name} Error:Robot Occurred Error:PAIF board disconnected.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError7d0", $"{Name} Error:Robot Occurred Error:PAIF board Failure 4.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError7d1", $"{Name} Error:Robot Occurred Error:PAIF board Failure 5.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError", $"{Name} Error:Robot Occurred Error:.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError900", $"{Name} Error:Robot Occurred Error:Character Interval Timeout.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError910", $"{Name} Error:Robot Occurred Error:Received Data ChecksumError.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError920", $"{Name} Error:Robot Occurred Error:Unit Number Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError930", $"{Name} Error:Robot Occurred Error:Undefined CommandReceived.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError940", $"{Name} Error:Robot Occurred Error:Message Parameter Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError950", $"{Name} Error:Robot Occurred Error:Receiving Time-out Error for Confirmation of Execution Completion.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError960", $"{Name} Error:Robot Occurred Error:Incorrect sequence number.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError961", $"{Name} Error:Robot Occurred Error:Duplicated message.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError970", $"{Name} Error:Robot Occurred Error:Delimiter error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError9A1", $"{Name} Error:Robot Occurred Error:Message buffer overflow.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError9C0", $"{Name} Error:Robot Occurred Error:LAN device setting error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError9C1", $"{Name} Error:Robot Occurred Error:IP address error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError9C2", $"{Name} Error:Robot Occurred Error:Subnet mask error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError9C3", $"{Name} Error:Robot Occurred Error:Default gateway error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError9d0", $"{Name} Error:Robot Occurred Error:Ethernet receive error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError9E0", $"{Name} Error:Robot Occurred Error:During operation themaintenance tool.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotError9E1", $"{Name} Error:Robot Occurred Error:The data abnormal.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorA01", $"{Name} Error:Robot Occurred Error:Re-detection of a powerSupply voltage fall.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorA10", $"{Name} Error:Robot Occurred Error:External emergency stop.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorA20", $"{Name} Error:Robot Occurred Error:T.P emergency stop.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorA21", $"{Name} Error:Robot Occurred Error:Interlock board failure 0.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorA30", $"{Name} Error:Robot Occurred Error:Emergency stop.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorA40", $"{Name} Error:Robot Occurred Error:Controller Fan 1 Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorA41", $"{Name} Error:Robot Occurred Error:Controller Fan 2 Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorA42", $"{Name} Error:Robot Occurred Error:Controller Fan 3 Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorA45", $"{Name} Error:Robot Occurred Error:Unit fan 1 error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorA46", $"{Name} Error:Robot Occurred Error:Unit fan 2 error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorA4F", $"{Name} Error:Robot Occurred Error:Controller Battery Alarm.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorAC0", $"{Name} Error:Robot Occurred Error:Safety fence signal detection.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorAC9", $"{Name} Error:Robot Occurred Error:Protection stop signal.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorAE0", $"{Name} Error:Robot Occurred Error:HOST Mode Switching error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorAE1", $"{Name} Error:Robot Occurred Error:TEACH Mode Switching Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorAE8", $"{Name} Error:Robot Occurred Error:Deadman switch error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorAF0", $"{Name} Error:Robot Occurred Error:Interlock board failure 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorAF1", $"{Name} Error:Robot Occurred Error:Interlock board failure 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorAF2", $"{Name} Error:Robot Occurred Error:Interlock board failure 3.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorAF3", $"{Name} Error:Robot Occurred Error:Interlock board failure 4.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorAF4", $"{Name} Error:Robot Occurred Error:Interlock board failure 5.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorAF5", $"{Name} Error:Robot Occurred Error:Interlock board failure 6.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorAF6", $"{Name} Error:Robot Occurred Error:Interlock board failure 7.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorAF8", $"{Name} Error:Robot Occurred Error:Input compare error 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorAF9", $"{Name} Error:Robot Occurred Error:Input compare error 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorAFA", $"{Name} Error:Robot Occurred Error:Input compare error 3.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorAFb", $"{Name} Error:Robot Occurred Error:Input compare error 4.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorAFC", $"{Name} Error:Robot Occurred Error:Input compare error 5.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorAFd", $"{Name} Error:Robot Occurred Error:Input compare error 6.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorAFE", $"{Name} Error:Robot Occurred Error:Input compare error 7.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorAFF", $"{Name} Error:Robot Occurred Error:Input compare error 8.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb10", $"{Name} Error:Robot Occurred Error:Axis-1 Speed Limit Detection.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb11", $"{Name} Error:Robot Occurred Error:Axis-2 Speed Limit Detection.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb12", $"{Name} Error:Robot Occurred Error:Axis-3 Speed Limit Detection.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb13", $"{Name} Error:Robot Occurred Error:Axis-4 Speed Limit Detection.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb14", $"{Name} Error:Robot Occurred Error:Axis-5 Speed Limit Detection.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb20", $"{Name} Error:Robot Occurred Error:Axis-1 Positive (+) DirectionSoftware-limit Detection 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb21", $"{Name} Error:Robot Occurred Error:Axis-2 Positive (+) DirectionSoftware-limit Detection 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb22", $"{Name} Error:Robot Occurred Error:Axis-3 Positive (+) DirectionSoftware-limit Detection 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb23", $"{Name} Error:Robot Occurred Error:Axis-4 Positive (+) DirectionSoftware-limit Detection 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb24", $"{Name} Error:Robot Occurred Error:Axis-5 Positive (+) DirectionSoftware-limit Detection 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb28", $"{Name} Error:Robot Occurred Error:Axis-1 Positive (+) Direction Software-limit Detection 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb29", $"{Name} Error:Robot Occurred Error:Axis-2 Positive (+) DirectionSoftware-limit Detection 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb2A", $"{Name} Error:Robot Occurred Error:Axis-3 Positive (+) DirectionSoftware-limit Detection 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb2b", $"{Name} Error:Robot Occurred Error:Axis-4 Positive (+) DirectionSoftware-limit Detection 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb2C", $"{Name} Error:Robot Occurred Error:Axis-5 Positive (+) DirectionSoftware-limit Detection 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb30", $"{Name} Error:Robot Occurred Error:Axis-1 Negative (-) DirectionSoftware-limit Detection 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb31", $"{Name} Error:Robot Occurred Error:Axis-2 Negative (-) DirectionSoftware-limit Detection 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb32", $"{Name} Error:Robot Occurred Error:Axis-3 Negative (-) Direction Software-limit Detection 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb33", $"{Name} Error:Robot Occurred Error:Axis-4 Negative (-) DirectionSoftware-limit Detection 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb34", $"{Name} Error:Robot Occurred Error:Axis-5 Negative (-) DirectionSoftware-limit Detection 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb38", $"{Name} Error:Robot Occurred Error:Axis-1 Negative (-) DirectionSoftware-limit Detection 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb39", $"{Name} Error:Robot Occurred Error:Axis-2 Negative (-) DirectionSoftware-limit Detection 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb3A", $"{Name} Error:Robot Occurred Error:Axis-3 Negative (-) Direction Software-limit Detection 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb3b", $"{Name} Error:Robot Occurred Error:Axis-4 Negative (-) DirectionSoftware-limit Detection 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb3C", $"{Name} Error:Robot Occurred Error:Axis-5 Negative (-) DirectionSoftware-limit Detection 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb40", $"{Name} Error:Robot Occurred Error:Access Permission Signal 1Time-out Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb41", $"{Name} Error:Robot Occurred Error:Access Permission Signal 2Time-out Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb42", $"{Name} Error:Robot Occurred Error:Access Permission Signal 3Time-out Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb43", $"{Name} Error:Robot Occurred Error:Access Permission Signal 4Time-out Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb44", $"{Name} Error:Robot Occurred Error:Access Permission Signal 5 Time-out Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb45", $"{Name} Error:Robot Occurred Error:Access Permission Signal 6Time-out Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb46", $"{Name} Error:Robot Occurred Error:Access Permission Signal 7Time-out Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb47", $"{Name} Error:Robot Occurred Error:Access Permission Signal 8Time-out Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb48", $"{Name} Error:Robot Occurred Error:Access Permission Signal 9Time-out Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb49", $"{Name} Error:Robot Occurred Error:Access Permission Signal 10 Time-out Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb4A", $"{Name} Error:Robot Occurred Error:Access Permission Signal 11Time-out Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb4b", $"{Name} Error:Robot Occurred Error:Access Permission Signal 12Time-out Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb4C", $"{Name} Error:Robot Occurred Error:Access Permission Signal 13Time-out Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb4d", $"{Name} Error:Robot Occurred Error:Access Permission Signal 14Time-out Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb4E", $"{Name} Error:Robot Occurred Error:Access Permission Signal 15Time-out Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb4F", $"{Name} Error:Robot Occurred Error:Access Permission Signal 16Time-out Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb60", $"{Name} Error:Robot Occurred Error:Access Permission to P/A Stage Time-out Error 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb61", $"{Name} Error:Robot Occurred Error:Access Permission to P/AStage Time-out Error 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb62", $"{Name} Error:Robot Occurred Error:Access Permission to P/A Stage Time-out Error 3.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb63", $"{Name} Error:Robot Occurred Error:Access Permission to P/A Stage Time-out Error 4.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb64", $"{Name} Error:Robot Occurred Error:Access Permission to P/AStage Time-out Error 5.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb65", $"{Name} Error:Robot Occurred Error:Access Permission to P/AStage Time-out Error 6.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb66", $"{Name} Error:Robot Occurred Error:Access Permission to P/AStage Time-out Error 7.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb68", $"{Name} Error:Robot Occurred Error:P/A motion permission timeout error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb70", $"{Name} Error:Robot Occurred Error:SS signal detection.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb80", $"{Name} Error:Robot Occurred Error:Fork 1/Pre-aligner: Wafer Presence Confirmation Time-out Error 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb81", $"{Name} Error:Robot Occurred Error:Fork 1/Pre-aligner: WaferAbsence Confirmation Time- out Error 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb82", $"{Name} Error:Robot Occurred Error:Fork 1/Pre-aligner: Wafer Presence Confirmation Time-out Error 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb83", $"{Name} Error:Robot Occurred Error:Fork 1/Pre-aligner: WaferAbsence Confirmation Time- out Error 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb88", $"{Name} Error:Robot Occurred Error:Grip sensor Time-out Error 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb89", $"{Name} Error:Robot Occurred Error:Grip sensor Time-out Error 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb8A", $"{Name} Error:Robot Occurred Error:UnGrip sensor Time-out Error1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb8b", $"{Name} Error:Robot Occurred Error:UnGrip sensor Time-out Error2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb8F", $"{Name} Error:Robot Occurred Error:Fork 1: Plunger non-operationerror.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb90", $"{Name} Error:Robot Occurred Error:Fork 2: Wafer Presence Confirmation Time-out Error 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb91", $"{Name} Error:Robot Occurred Error:Fork 2: Wafer AbsenceConfirmation Time-out Error 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb92", $"{Name} Error:Robot Occurred Error:Fork 2: Wafer PresenceConfirmation Time-out Error 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb93", $"{Name} Error:Robot Occurred Error:Fork 2: Wafer AbsenceConfirmation Time-out Error 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb98", $"{Name} Error:Robot Occurred Error:Lifter up sensor Time-outError 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb99", $"{Name} Error:Robot Occurred Error:Lifter up sensor Time-out Error 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb9A", $"{Name} Error:Robot Occurred Error:Lifter down sensor Time-outError 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb9b", $"{Name} Error:Robot Occurred Error:Lifter down sensor Time-outError 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorb9F", $"{Name} Error:Robot Occurred Error:Fork 2: Plunger non-operationerror.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorbA0", $"{Name} Error:Robot Occurred Error:Fork 1/Pre-aligner: WaferAbsence Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorbA1", $"{Name} Error:Robot Occurred Error:Fork 1: Sensor StatusMismatch.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorbA8", $"{Name} Error:Robot Occurred Error:Grip sensor status Error 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorbA9", $"{Name} Error:Robot Occurred Error:Grip sensor status Error 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorbAA", $"{Name} Error:Robot Occurred Error:Ungrip sensor status Error 1.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorbAb", $"{Name} Error:Robot Occurred Error:Ungrip sensor status Error 2.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorbAC", $"{Name} Error:Robot Occurred Error:Grip sensor status mismatch.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorbAd", $"{Name} Error:Robot Occurred Error:Lifter/Grip sensor statusmismatch.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorbb0", $"{Name} Error:Robot Occurred Error:Fork 2: Wafer Absence Error.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorbb1", $"{Name} Error:Robot Occurred Error:Fork 2: Sensor StatusMismatch.", EventLevel.Alarm, EventType.EventUI_Notify));
EV.Subscribe(new EventItem("Alarm", "RobotErrorbb8", $"{Name} Error:Robot Occurred Error:Lifter up sensor status Error 1.", EventLevel.Alarm, EventType.EventUI_Notify));
}
public void NotifyAlarmByErrorCode(string errorcode)
{
EV.Notify($"{Name}Error{errorcode}");
}
private void _diTPinUse_OnSignalChanged(IoSensor arg1, bool arg2)
{
SetMaintenanceMode(!arg1.Value);
}
private void _diRobotError_OnSignalChanged(IoSensor arg1, bool arg2)
{
if (arg1.Value == false)
{
lock (_locker)
{
_lstHandlers.AddLast(new SR100RobotReadHandler(this, "RSTS"));
}
OnError("RobotError");
}
}
private void ResetPropertiesAndResponses()
{
}
private void RegisterSpecialData()
{
DATA.Subscribe($"{Module}.{Name}.CurrentArm1Position", () => CurrentArm1Position);
DATA.Subscribe($"{Module}.{Name}.CurrentArm2Position", () => CurrentArm2Position);
DATA.Subscribe($"{Module}.{Name}.CurrentExtensionPosition", () => CurrentExtensionPosition);
DATA.Subscribe($"{Module}.{Name}.CurrentThetaPosition", () => CurrentThetaPosition);
DATA.Subscribe($"{Module}.{Name}.CurrentZPosition", () => CurrentZPosition);
DATA.Subscribe($"{Module}.{Name}.IsManipulatorBatteryLow", () => IsManipulatorBatteryLow);
DATA.Subscribe($"{Module}.{Name}.IsCommandExecutionReady", () => IsCommandExecutionReady);
DATA.Subscribe($"{Module}.{Name}.IsServoON", () => IsServoON);
DATA.Subscribe($"{Module}.{Name}.IsErrorOccurred", () => IsErrorOccurred);
DATA.Subscribe($"{Module}.{Name}.IsControllerBatteryLow", () => IsControllerBatteryLow);
DATA.Subscribe($"{Module}.{Name}.IsWaferPresenceOnBlade1", () => IsWaferPresenceOnBlade1);
DATA.Subscribe($"{Module}.{Name}.IsWaferPresenceOnBlade2", () => IsWaferPresenceOnBlade2);
DATA.Subscribe($"{Module}.{Name}.ErrorCode", () => ErrorCode);
DATA.Subscribe($"{Module}.{Name}.IsGrippedBlade1", () => IsGrippedBlade1);
DATA.Subscribe($"{Module}.{Name}.IsGrippedBlade2", () => IsGrippedBlade2);
DATA.Subscribe($"{Module}.{Name}.IsPermittedInterlock1", () => IsPermittedInterlock1);
DATA.Subscribe($"{Module}.{Name}.IsPermittedInterlock2", () => IsPermittedInterlock2);
DATA.Subscribe($"{Module}.{Name}.IsPermittedInterlock3", () => IsPermittedInterlock3);
DATA.Subscribe($"{Module}.{Name}.IsPermittedInterlock4", () => IsPermittedInterlock4);
DATA.Subscribe($"{Module}.{Name}.IsPermittedInterlock5", () => IsPermittedInterlock5);
DATA.Subscribe($"{Module}.{Name}.IsPermittedInterlock6", () => IsPermittedInterlock6);
DATA.Subscribe($"{Module}.{Name}.IsPermittedInterlock7", () => IsPermittedInterlock7);
DATA.Subscribe($"{Module}.{Name}.IsPermittedInterlock8", () => IsPermittedInterlock8);
DATA.Subscribe($"{Module}.{Name}.RobotSpeed", () => SpeedLevelSetting.ToString());
DATA.Subscribe($"{Name}.RobotSpeed", () =>
{
if (SpeedLevelSetting == 1) return "Fast";
if (SpeedLevelSetting == 2) return "Medium";
if (SpeedLevelSetting == 3) return "Slow";
return SpeedLevelSetting.ToString();
});
OP.Subscribe("SetSpeed", InvokeSetSpeed);
}
private bool OnTimer()
{
try
{
if (!_connection.IsConnected || _connection.IsCommunicationError)
{
lock (_locker)
{
_lstHandlers.Clear();
}
_trigRetryConnect.CLK = !_connection.IsConnected;
if (_trigRetryConnect.Q)
{
if (!_connection.Connect())
{
EV.PostAlarmLog(Module, $"Can not connect with {_connection.Address}, {Module}.{Name}");
}
else
{
//_lstHandler.AddLast(new RobotHirataR4QueryPinHandler(this, _deviceAddress));
//_lstHandler.AddLast(new RobotHirataR4SetCommModeHandler(this, _deviceAddress, EnumRfPowerCommunicationMode.Host));
}
}
return true;
}
HandlerBase handler = null;
lock (_locker)
{
while (_lstHandlers.Count > 0 || _connection.IsBusy)
{
if (!_connection.IsBusy)
{
if (_lstHandlers.Count > 0)
{
handler = _lstHandlers.First.Value;
ExecuteHandler(handler);
_lstHandlers.RemoveFirst();
}
}
else
{
_connection.MonitorTimeout();
_trigCommunicationError.CLK = _connection.IsCommunicationError;
if (_trigCommunicationError.Q)
{
_lstHandlers.Clear();
//EV.PostAlarmLog(Module, $"{Module}.{Name} communication error, {_connection.LastCommunicationError}");
OnError($"{Module}.{Name} communication error, {_connection.LastCommunicationError}");
//_trigActionDone.CLK = true;
}
}
}
}
}
catch (Exception ex)
{
LOG.Write(ex);
}
return true;
}
public bool Connect()
{
return _connection.Connect();
}
public bool Disconnect()
{
return _connection.Disconnect();
}
public override bool IsReady()
{
//if (_diRobotReady!=null && !_diRobotReady.Value)
// return false;
if (_diRobotError!=null && !_diRobotError.Value)
return false;
if (_diTPinUse != null && !_diTPinUse.Value)
return false;
return RobotState == RobotStateEnum.Idle && !IsBusy;
}
public bool ParseReadData(string _command,string[] rdata)
{
try
{
if (_command == "RSTS")
{
return (rdata.Length == 2 && ParseRSTSStatus(rdata));
}
if (_command == "RSLV") //Read the speed level
{
return (rdata.Length == 1 && ParseSpeedLevel(rdata[0]));
}
if (_command == "RPOS") //Reference current postion
{
return (rdata.Length > 1 && ParsePositionData(rdata));
}
if (_command == "RSTP") //Reference registered position, read the save postion for station
{
return (rdata.Length > 6 && ParseRegisteredPositionData(rdata));
}
if (_command == "RSTR") //Reference station item value
{
return (rdata.Length == 4 && ParseStationData(rdata));
}
if (_command == "RPRM") //Reference the parameter values of the specified unit
{
return (rdata.Length == 3 && ParseParameterData(rdata));
}
if (_command == "RMSK") //Reference the interlock information
{
return (rdata.Length == 1 && ParseInterlockInfo(rdata));
}
if (_command == "RVER") //Reference the software version
{
return (rdata.Length == 2 && ParseSoftwareVersion(rdata));
}
if (_command == "RMAP") //Reference the slot map
{
return (rdata.Length > 2 && ParseSlotMap(rdata));
}
if (_command == "RMPD") //reference the mapping data
{
return (rdata.Length > 1 && ParseMappingData(rdata));
}
if (_command == "RMCA") // Reference the mapping calibration result
{
return (rdata.Length > 1 && ParseMappingCalibrationResult(rdata));
}
if (_command == "RALN") // Reference the alignment result
{
return true;
}
if (_command == "RACA") // Reference calibration result for alignment
{
return true;
}
return true;
}
catch(Exception ex)
{
LOG.Write(ex);
return true;
}
}
public bool ParseStatus(string status)
{
try
{
int intstatus = Convert.ToInt32(status,16);
IsManipulatorBatteryLow = ((intstatus & 0x10) == 0x10);
IsCommandExecutionReady = ((intstatus & 0x20) == 0x20);
IsServoON = ((intstatus & 0x40) == 0x40);
IsErrorOccurred = ((intstatus & 0x80) == 0x80);
IsControllerBatteryLow = ((intstatus & 0x1) == 0x1);
IsWaferPresenceOnBlade1 = ((intstatus & 0x2) == 0x2);
IsWaferPresenceOnBlade2 = ((intstatus & 0x4) == 0x4);
return true;
}
catch (Exception ex)
{
LOG.Write(ex);
return false;
}
}
public bool ParseRSTSStatus(string[] status)
{
try
{
ErrorCode = status[0];
int intstatus = Convert.ToInt32(status[1],16);
IsWaferPresenceOnBlade1 = ((intstatus & 0x1000) == 0x1000);
IsWaferPresenceOnBlade2 = ((intstatus & 0x2000) == 0x2000);
IsGrippedBlade1 = ((intstatus & 0x4000) == 0x4000);
IsGrippedBlade2 = ((intstatus & 0x8000) == 0x8000);
IsPermittedInterlock1 = ((intstatus & 0x100) == 0x100);
IsPermittedInterlock2 = ((intstatus & 0x200) == 0x200);
IsPermittedInterlock3 = ((intstatus & 0x400) == 0x400);
IsPermittedInterlock4 = ((intstatus & 0x800) == 0x800);
IsPermittedInterlock5 = ((intstatus & 0x10) == 0x10);
IsPermittedInterlock6 = ((intstatus & 0x20) == 0x20);
IsPermittedInterlock7 = ((intstatus & 0x40) == 0x40);
IsPermittedInterlock8 = ((intstatus & 0x80) == 0x80);
return true;
}
catch (Exception ex)
{
LOG.Write(ex);
return true;
}
}
public bool ParseSpeedLevel(string speedlevel)
{
try
{
int level = Convert.ToInt32(speedlevel);
if (level < 1 || level > 3) return false;
SpeedLevel = level;
return true;
}
catch (Exception ex)
{
LOG.Write(ex);
return false;
}
}
public bool ParsePositionData(string[] pdata)
{
try
{
if (pdata[0] == "R")
{
CommandThetaPosition = Convert.ToSingle(pdata[1]) / 1000;
CommandExtensionPosition = Convert.ToSingle(pdata[2]) / 1000;
CommandArm1Position = Convert.ToSingle(pdata[3]) / 1000;
CommandArm2Position = Convert.ToSingle(pdata[4]) / 1000;
CommandZPosition = Convert.ToSingle(pdata[5]) / 1000;
return true;
}
if (pdata[0] == "F")
{
CurrentThetaPosition = Convert.ToSingle(pdata[1]) / 1000;
PositionAxis1 = CurrentThetaPosition;
CurrentExtensionPosition = Convert.ToSingle(pdata[2]) / 1000;
PositionAxis2 = CurrentExtensionPosition;
CurrentArm1Position = Convert.ToSingle(pdata[3]) / 1000;
PositionAxis3 = CurrentArm1Position;
CurrentArm2Position = Convert.ToSingle(pdata[4]) / 1000;
PositionAxis4 = CurrentArm2Position;
CurrentZPosition = Convert.ToSingle(pdata[5]) / 1000;
PositionAxis5 = CurrentZPosition;
return true;
}
return false;
}
catch (Exception ex)
{
LOG.Write(ex);
return false;
}
}
public bool ParseRegisteredPositionData(string[] pdata)
{
try
{
ReadMemorySpec = pdata[0];
ReadTransferStation = pdata[1];
ReadSlotNumber = Convert.ToInt16(pdata[2]);
ReadArmPosture = pdata[3];
ReadBladeNo = (RobotArmEnum)(Convert.ToInt16(pdata[4]) - 1);
if (pdata[5] == "S")
ReadPositionType = YaskawaPositonEnum.RegisteredPosition;
if (pdata[5] == "R")
ReadPositionType = YaskawaPositonEnum.ReadyPosition;
if (pdata[5] == "M")
ReadPositionType = YaskawaPositonEnum.IntermediatePosition;
if (pdata[5] == "B")
ReadPositionType = YaskawaPositonEnum.MappingStartPosition;
if (pdata[5] == "E")
ReadPositionType = YaskawaPositonEnum.MappingFinishPosition;
return true;
}
catch (Exception ex)
{
LOG.Write(ex);
return false;
}
}
public bool ParseStationData(string[] pdata)
{
try
{
ReadMemorySpec = pdata[0];
ReadTransferStation = pdata[1];
if (ReadStationItemValues.ContainsKey(pdata[2]))
ReadStationItemValues.Remove(pdata[2]);
ReadStationItemValues.Add(pdata[2], pdata[3]);
return true;
}
catch (Exception ex)
{
LOG.Write(ex);
return false;
}
}
public bool ParseParameterData(string[] pdata)
{
try
{
ReadParameterType = pdata[0];
ReadParameterNo = pdata[1];
ReadParameterValue =pdata[2];
return true;
}
catch (Exception ex)
{
LOG.Write(ex);
return false;
}
}
public bool ParseInterlockInfo(string[] pdata)
{
try
{
int intdata = Convert.ToInt16(pdata[0]);
IsCheckInterlockWaferPresenceOnBlade1 = (intdata & 0x1) == 0;
IsCheckInterlockWaferPresenceOnBlade2 = (intdata & 0x2) == 0;
IsCheckInterlockPAOp = (intdata & 0x10) == 0;
IsCheckInterlockPAWaferStatus = (intdata & 0x20) == 0;
IsCheckInterlockPAWaferStatusByCCD = (intdata & 0x40) == 0;
return true;
}
catch (Exception ex)
{
LOG.Write(ex);
return false;
}
}
public bool ParseSoftwareVersion(string[] pdata)
{
try
{
RobotSystemVersion = pdata[0];
RobotSoftwareVersion = pdata[1];
return true;
}
catch (Exception ex)
{
LOG.Write(ex);
return false;
}
}
public bool ParseSlotMap(string[] pdata)
{
//$,<UNo>(,<SeqNo>),<Sts>,<Ackcd>,RMAP,<TrsSt>,<Slot>,
//01:<Result1>…,N:<ResultN>(,<Sum>)<CR>
//• UNo : Unit number (1 byte)
//• SeqNo : Sequence number (None / 2 bytes)
//• Sts : Status (2 bytes)
//• Ackcd : Response code (4 bytes)
//• TrsSt : Transfer station (3 bytes)
//• Slot : Slot number (2 bytes)
//• Result* : Mapping result (2 bytes each)
//• “--” : No wafer detected.
//• “OK” : Wafer inserted correctly.
//• “CW” : Wafer inserted incorrectly (inclined).
//• “DW” : Wafer inserted incorrectly (duplicated).
//Note) Responds with the number of slots of the specified transfer station.
//$,1,00,0000,RMAP,C02,00,
//01:OK,02:DW,03:OK,04:CW,05:CW,06:OK,07:OK,08:--,09:OK,10:OK
// No wafer: "0", Wafer: "1", Crossed:"2", Undefined: "?", Overlapping wafers: "W"
try
{
ReadMappingTransferStation = pdata[0];
ReadMappingSlotNumbers = Convert.ToInt16(pdata[1]);
StringBuilder sb = new StringBuilder();
for (int i= 2;i<pdata.Length ;i++)
{
string value = pdata[i].Substring(3);
switch (value)
{
case "--":
sb.Append("0");
break;
case "OK":
sb.Append("1");
break;
case "CW":
sb.Append("2");
break;
case "DW":
sb.Append("W");
break;
}
}
ReadSlotMap = sb.ToString();
NotifySlotMapResult(CurrentInteractiveModule, ReadSlotMap);
return true;
}
catch (Exception ex)
{
LOG.Write(ex);
return false;
}
}
public bool ParseMappingData(string[] pdata)
{
try
{
ReadMappingTransferStation = pdata[0];
List<string> lstupdata = new List<string>();
List<string> lstdowndata = new List<string>();
for(int i=0;i<(pdata.Length-1)/2;i++)
{
lstupdata.Add(pdata[2 * i+1].Remove(0, 3));
lstdowndata.Add(pdata[2 * i + 2]);
}
ReadMappingDownData = lstdowndata.ToArray();
ReadMappingUpData = lstupdata.ToArray();
return true;
}
catch (Exception ex)
{
LOG.Write(ex);
return false;
}
}
public bool ParseMappingCalibrationResult(string[] pdata)
{
try
{
ReadMappingTransferStation = pdata[0];
ReadMappingCalibrationResult.Clear();
ReadMappingCalibrationResult.Add("LowestLaySlotPosition", Convert.ToInt32(pdata[1]) / 1000);
ReadMappingCalibrationResult.Add("HighestLaySlotPosition", Convert.ToInt32(pdata[2]) / 1000);
ReadMappingCalibrationResult.Add("WaferWidth", Convert.ToInt32(pdata[3]) / 1000);
ReadMappingCalibrationResult.Add("ThreshhholdValueofDoubleInsertion", Convert.ToInt32(pdata[4]) / 1000);
ReadMappingCalibrationResult.Add("ThreshhholdValueofSlantingInsertion1", Convert.ToInt32(pdata[5]) / 1000);
ReadMappingCalibrationResult.Add("ThreshhholdValueofSlantingInsertion2", Convert.ToInt32(pdata[6]) / 1000);
return true;
}
catch (Exception ex)
{
LOG.Write(ex);
return false;
}
}
protected override bool fClear(object[] param)
{
lock(_locker)
{
_lstHandlers.Clear();
_connection.ForceClear();
_lstHandlers.AddLast(new SR100RobotMotionHandler(this, "CCLR", "E"));
_lstHandlers.AddLast(new SR100RobotReadHandler(this, "RSTS"));
}
return true;
}
protected override bool fStartReadData(object[] param)
{
if (param.Length < 1) return false;
string readcommand = param[0].ToString();
switch (readcommand)
{
case "CurrentStatus":
lock (_locker)
{
_lstHandlers.AddLast(new SR100RobotReadHandler(this, "RSTS"));
_lstHandlers.AddLast(new SR100RobotReadHandler(this, "RPOS", "F"));
_lstHandlers.AddLast(new SR100RobotReadHandler(this, "RPOS", "R"));
}
break;
default:
break;
}
return true;
}
private void ExecuteHandler(HandlerBase handler)
{
string commandstr = $",{UnitNumber}";
if (IsEnableSeqNo)
{
CurrentSeqNo = SeqnoGenerator.create();
commandstr += $",{CurrentSeqNo:D2}";
SeqnoGenerator.release(CurrentSeqNo);
}
commandstr += $",{handler.SendText}";
if(IsEnableCheckSum)
{
commandstr += ",";
commandstr += Checksum(Encoding.ASCII.GetBytes(commandstr));
}
handler.SendText = $"${commandstr}\r";
_connection.Execute(handler);
}
private string Checksum(byte[] bytes)
{
int sum = 0;
foreach (byte code in bytes)
{
sum += code;
}
string hex = String.Format("{0:X2}", sum % 256);
return hex;
}
protected override bool fStartSetParameters(object[] param)
{
try
{
string strParameter;
string setcommand = param[0].ToString();
switch (setcommand)
{
case "MotionSpeed": // SSPD Set the motion speed
string strlevel = param[1].ToString();
string strspeedtype = param[2].ToString();
string strAxis = param[3].ToString();
uint speeddata = Convert.ToUInt32(param[4]);
if (!"0123".Contains(strlevel))
{
EV.PostAlarmLog(Name, $"Set {setcommand} with invalid parameter:" + strlevel);
return false;
}
if(!"HMLOB".Contains(strspeedtype))
{
EV.PostAlarmLog(Name, $"Set {setcommand} with invalid parameter:" + strspeedtype);
return false;
}
if (!"SAHIZRG".Contains(strAxis))
{
EV.PostAlarmLog(Name, $"Set {setcommand} with invalid parameter:" + strAxis);
return false;
}
strParameter = $"{strlevel},{strspeedtype},{strAxis}," + speeddata.ToString("D8");
lock (_locker)
{
_lstHandlers.AddLast(new SR100RobotSetHandler(this, "SSPD", strParameter));
}
break;
case "TransferSpeedLevel": //SSLV Select the transfer speed level
string sslvlevel = param[1].ToString();
if (!"123".Contains(sslvlevel))
{
EV.PostAlarmLog(Name, $"Set {setcommand} with invalid parameter:" + sslvlevel);
return false;
}
lock(_locker)
{
_lstHandlers.AddLast(new SR100RobotSetHandler(this, "SSLV", sslvlevel));
}
if (SC.ContainsItem($"{_scRoot}.{Name}.SpeedLevel"))
{
SC.SetItemValue($"{_scRoot}.{Name}.SpeedLevel", Convert.ToInt32(sslvlevel));
SpeedLevelSetting = SC.GetValue<int>($"{_scRoot}.{Name}.SpeedLevel");
}
break;
case "RegisterTheCurrentPositionAsTransferStation": // SPOS: Register the current position as the specified transfer station
string sposMem = param[1].ToString();
string sposRmode = param[2].ToString();
string sposTrsSt = param[3].ToString();
uint sposSlot = Convert.ToUInt16(param[4]);
string sposPosture = param[5].ToString();
string sposHand= param[6].ToString();
if(!"VN".Contains(sposMem))
{
EV.PostAlarmLog(Name, $"Set {setcommand} with invalid parameter:" + sposMem);
return false;
}
if (!"AN".Contains(sposRmode))
{
EV.PostAlarmLog(Name, $"Set {setcommand} with invalid parameter:" + sposRmode);
return false;
}
if (sposSlot <1 || sposSlot>30)
{
EV.PostAlarmLog(Name, $"Set {setcommand} with invalid parameter:" + sposSlot.ToString());
return false;
}
if (!"LR".Contains(sposPosture))
{
EV.PostAlarmLog(Name, $"Set {setcommand} with invalid parameter:" + sposPosture);
return false;
}
if (!"12".Contains(sposHand))
{
EV.PostAlarmLog(Name, $"Set {setcommand} with invalid parameter:" + sposHand);
return false;
}
strParameter = $"{sposMem},{sposRmode},{sposTrsSt},{sposSlot},{sposPosture},{sposHand}";
lock (_locker)
{
_lstHandlers.AddLast(new SR100RobotSetHandler(this, "SPOS", strParameter));
}
break;
case "RegisterTheSpePostionAsTransferStation": //SABS
string sabsMem = param[1].ToString();
string sabsRmode = param[2].ToString();
string sabsTrsSt = param[3].ToString();
string sabsPosture = param[4].ToString();
string sabsHand = param[5].ToString();
Int32 sabsValue1 = Convert.ToInt32(param[6]);
Int32 sabsValue2 = Convert.ToInt32(param[7]);
Int32 sabsValue3 = Convert.ToInt32(param[8]);
Int32 sabsValue4 = Convert.ToInt32(param[9]);
Int32 sabsValue5 = Convert.ToInt32(param[10]);
if (!"VN".Contains(sabsMem))
{
EV.PostAlarmLog(Name, $"Set {setcommand} with invalid parameter:" + sabsMem);
return false;
}
if (!"AN".Contains(sabsRmode))
{
EV.PostAlarmLog(Name, $"Set {setcommand} with invalid parameter:" + sabsRmode);
return false;
}
if (!"LR".Contains(sabsPosture))
{
EV.PostAlarmLog(Name, $"Set {setcommand} with invalid parameter:" + sabsPosture);
return false;
}
if (!"12".Contains(sabsHand))
{
EV.PostAlarmLog(Name, $"Set {setcommand} with invalid parameter:" + sabsHand);
return false;
}
strParameter = $"{sabsMem},{sabsRmode},{sabsTrsSt},{sabsPosture},{sabsHand},"
+ sabsValue1.ToString("D8") + "," + sabsValue2.ToString("D8") + "," + sabsValue3.ToString("D8") +
"," + sabsValue4.ToString("D8") + "," + sabsValue5.ToString("D8");
lock (_locker)
{
_lstHandlers.AddLast(new SR100RobotSetHandler(this, "SABS", strParameter));
}
break;
case "ModifyTheSpecStationPostionByOffset": //SAPS
string sapsMem = param[1].ToString();
string sapsRmode = param[2].ToString();
string sapsTrsSt = param[3].ToString();
string sapsPosture = param[4].ToString();
string sapsHand = param[5].ToString();
Int32 sapsOffsetX = Convert.ToInt32(param[6]);
Int32 sapsOffsetY = Convert.ToInt32(param[7]);
Int32 sapsOffsetZ = Convert.ToInt32(param[8]);
strParameter = $"{sapsMem},{sapsRmode},{sapsTrsSt},{sapsPosture},{sapsHand},"
+ sapsOffsetX.ToString("D8") + "," + sapsOffsetY.ToString("D8") + "," + sapsOffsetZ.ToString("D8");
lock (_locker)
{
_lstHandlers.AddLast(new SR100RobotSetHandler(this, "SAPS", strParameter));
}
break;
case "DeleteTheSpecStation": //SPDL
string spdlMem = param[1].ToString();
string spdlTrsSt = param[2].ToString();
string spdlPosture = param[3].ToString();
string spdlHand = param[4].ToString();
strParameter = $"{spdlMem},{spdlTrsSt},{spdlPosture},{spdlHand}";
lock (_locker)
{
_lstHandlers.AddLast(new SR100RobotSetHandler(this, "SPDL", strParameter));
}
break;
case "RegisterThePositionDataToVolatile": //SPSV
string spsvTrsSt = param[1].ToString();
string spsvPosture = param[2].ToString();
string spsvHand = param[3].ToString();
strParameter = $"{spsvTrsSt},{spsvPosture},{spsvHand}";
lock (_locker)
{
_lstHandlers.AddLast(new SR100RobotSetHandler(this, "SPSV", strParameter));
}
break;
case "ReadThePostionDataFromVolatile": //SPLD
string spldTrsSt = param[1].ToString();
string spldPosture = param[2].ToString();
string spldHand = param[3].ToString();
strParameter = $"{spldTrsSt},{spldPosture},{spldHand}";
lock (_locker)
{
_lstHandlers.AddLast(new SR100RobotSetHandler(this, "SPLD", strParameter));
}
break;
case "SetTheStationParameters": //SSTR
string sstrMem = param[1].ToString();
string sstrTrsSt = param[2].ToString();
string sstrItem = param[3].ToString();
Int32 sstrValue = Convert.ToInt32(param[4].ToString());
strParameter = $"{sstrMem},{sstrTrsSt},{sstrItem}," + sstrValue.ToString("D8");
lock (_locker)
{
_lstHandlers.AddLast(new SR100RobotSetHandler(this, "SSTR", strParameter));
}
break;
case "ChangeParameterValue": // SPRM
string sprmParaType = param[1].ToString();
int sprmParaNO = Convert.ToInt32(param[2].ToString());
Int32 sprmValue = Convert.ToInt32(param[3].ToString());
strParameter = sprmParaType + "," +sprmParaNO.ToString("D4") + "," + sprmValue.ToString("D12");
lock (_locker)
{
_lstHandlers.AddLast(new SR100RobotSetHandler(this, "SPRM", strParameter));
}
break;
case "EnableInterLock": //SMSK
int smskValid = Convert.ToInt16(param[1].ToString());
lock (_locker)
{
_lstHandlers.AddLast(new SR100RobotSetHandler(this, "SPRM", smskValid.ToString("D4")));
}
break;
case "RegisterTheCurrentPositionAsCoordinate": //SSTD
string sstdAxis = param[1].ToString();
lock (_locker)
{
_lstHandlers.AddLast(new SR100RobotSetHandler(this, "SSTD", sstdAxis));
}
break;
case "ResigterTheSpecNumberAsReferencePostion": //SSTN
Int32 sstnValue1 = Convert.ToInt32(param[1]);
Int32 sstnValue2 = Convert.ToInt32(param[2]);
Int32 sstnValue3 = Convert.ToInt32(param[3]);
Int32 sstnValue4 = Convert.ToInt32(param[4]);
Int32 sstnValue5 = Convert.ToInt32(param[5]);
strParameter = sstnValue1.ToString("D12") + "," + sstnValue2.ToString("D12") + ","
+ sstnValue3.ToString("D12") + "," + sstnValue4.ToString("D12") + ","
+ sstnValue5.ToString("D12");
lock (_locker)
{
_lstHandlers.AddLast(new SR100RobotSetHandler(this, "SSTN", strParameter));
}
break;
}
}
catch (Exception)
{
string reason = "";
if (param != null)
{
foreach (var para in param)
{
reason += para.ToString() + ",";
}
}
EV.PostAlarmLog(Name, "Set command parameter invalid:" + reason);
return false;
}
return true;
}
protected override bool fMonitorSetParamter(object[] param)
{
return true;
}
protected override bool fStartTransferWafer(object[] param)
{
return false;
}
protected override bool fStartUnGrip(object[] param)
{
lock(_locker)
{
RobotArmEnum arm = (RobotArmEnum)param[0];
string strpara = (arm == RobotArmEnum.Both ? "F" : ((int)arm+1).ToString()) + ",0,0";
_lstHandlers.AddLast(new SR100RobotMotionHandler(this, "CSOL", strpara));
}
return true;
}
protected override bool fStartGrip(object[] param)
{
lock (_locker)
{
RobotArmEnum arm = (RobotArmEnum)param[0];
string strpara = (arm == RobotArmEnum.Both ? "F" : ((int)arm + 1).ToString()) + ",1,0";
_lstHandlers.AddLast(new SR100RobotMotionHandler(this, "CSOL", strpara));
}
return true;
}
protected override bool fStartInit(object[] param)
{
SpeedLevelSetting = SC.GetValue<int>($"{_scRoot}.{Name}.SpeedLevel");
lock (_locker)
{
if (_doRobotHold != null)
{
_doRobotHold.SetTrigger(true, out _);
Thread.Sleep(100);
}
string strpara = "1,1,G";
_lstHandlers.AddLast(new SR100RobotMotionHandler(this, "INIT", strpara));
if(SpeedLevelSetting >=1 && SpeedLevelSetting<=3)
_lstHandlers.AddLast(new SR100RobotSetHandler(this, "SSLV", SpeedLevelSetting.ToString()));
}
return true;
}
protected override bool fStartHome(object[] param)
{
SpeedLevelSetting = SC.GetValue<int>($"{_scRoot}.{Name}.SpeedLevel");
lock (_locker)
{
if (_doRobotHold != null)
{
_doRobotHold.SetTrigger(true, out _);
Thread.Sleep(100);
}
string strpara = "1,1,G";
_lstHandlers.AddLast(new SR100RobotMotionHandler(this, "INIT", strpara));
if (SpeedLevelSetting >= 1 && SpeedLevelSetting <= 3)
_lstHandlers.AddLast(new SR100RobotSetHandler(this, "SSLV", SpeedLevelSetting.ToString()));
}
return true;
}
protected override bool fStartGoTo(object[] param)
{
try
{
RobotArmEnum arm = (RobotArmEnum)param[0];
ModuleName module = (ModuleName)Enum.Parse(typeof(ModuleName), param[1].ToString());
Blade1Target = module;
Blade2Target = module;
int slot = (int)param[2]+1;
RobotPostionEnum postype = (RobotPostionEnum)param[3];
float x = (float)param[4];
float y = (float)param[5];
float z = (float)param[6];
float w = (float)param[7];
int intXvalue = (int)(x * 1000);
int intYvalue = (int)(y * 1000);
int intZvalue = (int)(z * 1000);
int intWvalue = (int)(w * 1000);
bool isFromOriginal = (bool)param[8];
bool isJumpToNextMotion = (bool)param[9];
string strpara =string.Empty;
if((int)postype >=0 && (int)postype<10)
{
strpara = "G";
}
if((int)postype >= 10 && (int)postype < 20)
{
strpara = "P";
}
if ((int)postype >= 20 && (int)postype < 30)
{
strpara = "E";
}
string trsSt = GetStationsName(module);
string TrsPnt = string.Empty;
if(postype == RobotPostionEnum.PickReady)
{
TrsPnt = "G1";
}
if(postype == RobotPostionEnum.PickExtendLow)
{
TrsPnt = "G2";
}
if (postype == RobotPostionEnum.PickAtWafer)
{
TrsPnt = "Gb";
}
if (postype == RobotPostionEnum.PickExtendUp)
{
TrsPnt = "G3";
}
if (postype == RobotPostionEnum.PickRetracted)
{
TrsPnt = "G4";
}
if (postype == RobotPostionEnum.PlaceReady)
{
TrsPnt = "P1";
}
if (postype == RobotPostionEnum.PlaceExtendUp)
{
TrsPnt = "P2";
}
if (postype == RobotPostionEnum.PlaceExtendAtWafer)
{
TrsPnt = "Pb";
}
if (postype == RobotPostionEnum.PlaceExtendDown)
{
TrsPnt = "P3";
}
if (postype == RobotPostionEnum.PlaceRetract)
{
TrsPnt = "P4";
}
string strCmd = string.Empty;
if(isFromOriginal)
{
strCmd = "MTRS";
}
else if(isJumpToNextMotion)
{
strCmd = "MCTR";
}
else
{
strCmd = "MPNT";
}
if (string.IsNullOrEmpty(trsSt) || string.IsNullOrEmpty(strpara)||string.IsNullOrEmpty(TrsPnt))
{
EV.PostAlarmLog("Robot", "invalid transfer paramter");
return false;
}
strpara += $",{trsSt},{slot:D2},A,{(arm == RobotArmEnum.Both ? "F" : ((int)arm+1).ToString())}," +
$"{TrsPnt}";
if (x != 0 || y != 0 || z != 0 || w != 0)
{
string strxoffset = intXvalue >= 0 ? $"{intXvalue:D8}" : $"{intXvalue:D7}";
string stryoffset = intYvalue >= 0 ? $"{intYvalue:D8}" : $"{intYvalue:D7}";
string strzoffset = intZvalue >= 0 ? $"{intZvalue:D8}" : $"{intZvalue:D7}";
string strwoffset = intWvalue >= 0 ? $"{intWvalue:D8}" : $"{intWvalue:D7}";
strpara += $",{strxoffset},{stryoffset},{strzoffset},{strwoffset}";
}
if (strCmd == "MPNT")
strpara = TrsPnt;
lock (_locker)
{
if(_lstHandlers.Count == 0 && !_connection.IsBusy)
{
ExecuteHandler(new SR100RobotMotionHandler(this, strCmd, strpara));
}
else
{
_lstHandlers.AddLast(new SR100RobotMotionHandler(this, strCmd, strpara));
}
}
return true;
}
catch(Exception ex)
{
LOG.Write(ex);
return false;
}
}
protected override bool fGoToComplete(object[] param)
{
try
{
RobotArmEnum arm = (RobotArmEnum)CurrentParamter[0];
ModuleName sourcemodule = (ModuleName)Enum.Parse(typeof(ModuleName), CurrentParamter[1].ToString());
int SourceslotIndex = (int)CurrentParamter[2];
RobotPostionEnum postype = (RobotPostionEnum)CurrentParamter[3];
bool isFromOriginal = (bool)CurrentParamter[8];
bool isJumpToNextMotion = (bool)CurrentParamter[9];
switch (postype)
{
case RobotPostionEnum.PickExtendUp:
case RobotPostionEnum.PickRetracted:
if (arm == RobotArmEnum.Lower)
{
WaferManager.Instance.WaferMoved(sourcemodule, SourceslotIndex, RobotModuleName, 0);
//if (isSimulatorMode || GetWaferState(arm) == RobotArmWaferStateEnum.Present)
// WaferManager.Instance.WaferMoved(sourcemodule, SourceslotIndex, RobotModuleName, 0);
//else
// OnError("Wafer detect error");
}
if (arm == RobotArmEnum.Upper)
{
WaferManager.Instance.WaferMoved(sourcemodule, SourceslotIndex, RobotModuleName, 1);
//if (isSimulatorMode || GetWaferState(arm) == RobotArmWaferStateEnum.Present)
// WaferManager.Instance.WaferMoved(sourcemodule, SourceslotIndex, RobotModuleName, 1);
//else
// OnError("Wafer detect error");
}
if (arm == RobotArmEnum.Both)
{
WaferManager.Instance.WaferMoved(sourcemodule, SourceslotIndex, RobotModuleName, 0);
WaferManager.Instance.WaferMoved(sourcemodule, SourceslotIndex, RobotModuleName, 1);
//if (isSimulatorMode || GetWaferState(arm) == RobotArmWaferStateEnum.Present)
//{
// WaferManager.Instance.WaferMoved(sourcemodule, SourceslotIndex, RobotModuleName, 0);
// WaferManager.Instance.WaferMoved(sourcemodule, SourceslotIndex, RobotModuleName, 1);
//}
//else
// OnError("Wafer detect error");
}
break;
case RobotPostionEnum.PlaceExtendDown:
case RobotPostionEnum.PlaceRetract:
if (arm == RobotArmEnum.Lower)
{
WaferManager.Instance.WaferMoved(RobotModuleName, 0, sourcemodule, SourceslotIndex);
//if (isSimulatorMode || GetWaferState(arm) == RobotArmWaferStateEnum.Absent)
// WaferManager.Instance.WaferMoved(RobotModuleName, 0, sourcemodule, SourceslotIndex);
//else
// OnError("Wafer detect error");
}
if (arm == RobotArmEnum.Upper)
{
WaferManager.Instance.WaferMoved(RobotModuleName, 1, sourcemodule, SourceslotIndex);
//if (isSimulatorMode || GetWaferState(arm) == RobotArmWaferStateEnum.Absent)
// WaferManager.Instance.WaferMoved(RobotModuleName, 1, sourcemodule, SourceslotIndex);
//else
// OnError("Wafer detect error");
}
if (arm == RobotArmEnum.Both)
{
WaferManager.Instance.WaferMoved(RobotModuleName, 0, sourcemodule, SourceslotIndex);
WaferManager.Instance.WaferMoved(RobotModuleName, 1, sourcemodule, SourceslotIndex);
//if (isSimulatorMode || GetWaferState(arm) == RobotArmWaferStateEnum.Absent)
//{
// WaferManager.Instance.WaferMoved(RobotModuleName, 0, sourcemodule, SourceslotIndex);
// WaferManager.Instance.WaferMoved(RobotModuleName, 1, sourcemodule, SourceslotIndex);
//}
//else
// OnError("Wafer detect error");
}
break;
}
}
catch (Exception ex)
{
LOG.Write(ex);
}
return base.fGoToComplete(param);
}
protected override bool fStop(object[] param)
{
lock (_locker)
{
if(_doRobotHold !=null)
_doRobotHold.SetTrigger(false,out _);
_lstHandlers.Clear();
_connection.ForceClear();
//ExecuteHandler(new SR100RobotMotionHandler(this, "CSTP", "E"));
}
return true; ;
}
protected override bool fStartMove(object[] param)
{
try
{
string strCmd = param[0].ToString();
string strpara = string.Empty;
for (int i = 1; i < param.Length; i++)
{
if(i==1)
strpara += param[i].ToString();
else
strpara += "," + param[i].ToString();
}
lock (_locker)
{
_lstHandlers.AddLast(new SR100RobotMotionHandler(this, strCmd, strpara));
_lstHandlers.AddLast(new SR100RobotReadHandler(this, "RPOS", "F"));
}
return true;
}
catch(Exception ex)
{
LOG.Write(ex);
return false;
}
}
private string GetStationsName(ModuleName module)
{
try
{
if (ModuleHelper.IsLoadPort(module))
{
int infopadindex = DEVICE.GetDevice<LoadPortBaseDevice>(module.ToString()).InfoPadCarrierIndex;
return SC.GetStringValue($"CarrierInfo.{module}Station{infopadindex}");
}
return SC.GetStringValue($"CarrierInfo.{module}Station");
}
catch(Exception ex)
{
LOG.Write(ex);
return null;
}
}
private int GetSlotsNumber(ModuleName module)
{
try
{
if (ModuleHelper.IsLoadPort(module))
{
return DEVICE.GetDevice<LoadPortBaseDevice>(module.ToString()).ValidSlotsNumber;
}
return SC.GetValue<int>($"CarrierInfo.{module}SlotsNumber");
}
catch (Exception ex)
{
LOG.Write(ex);
return -1;
}
}
protected override bool fStartMapWafer(object[] param)
{
try
{
//RobotArmEnum pickarm = (RobotArmEnum)param[0];
ModuleName module = (ModuleName)Enum.Parse(typeof(ModuleName), param[0].ToString());
Blade1Target = module;
Blade2Target = module;
int slotsNumber = GetSlotsNumber(module);
if (slotsNumber == -1)
{
EV.PostAlarmLog("Robot", "Invalid mapping paramter slots number");
return false;
}
//int slot = 25;// (int)param[2];
string strpara = $"{GetStationsName(module)},00,1";
lock (_locker)
{
CurrentInteractiveModule = module;
_lstHandlers.AddLast(new SR100RobotMotionHandler(this, "MMAP", strpara));
_lstHandlers.AddLast(new SR100RobotReadHandler(this, "RMPD", $"{GetStationsName(module)}"));
_lstHandlers.AddLast(new SR100RobotReadHandler(this, "RMAP", $"{GetStationsName(module)},00"));
}
return true;
}
catch (Exception ex)
{
LOG.Write(ex);
return false;
}
}
protected override bool fStartSwapWafer(object[] param)
{
try
{
RobotArmEnum arm = (RobotArmEnum)param[0];
ModuleName module = (ModuleName)Enum.Parse(typeof(ModuleName), param[1].ToString());
Blade1Target = module;
Blade2Target = module;
if (ModuleHelper.IsLoadPort(module))
{
var lp = DEVICE.GetDevice<LoadPortBaseDevice>(module.ToString());
if (lp != null && !lp.NoteTransferStart())
return false;
}
int slot = (int)param[2]+1;
float x = 0, y = 0, z = 0, w = 0;
if (param.Length > 3)
{
x = (float)param[3];
y = (float)param[4];
z = (float)param[5];
w = (float)param[6];
}
int intXvalue = (int)(x * 1000);
int intYvalue = (int)(y * 1000);
int intZvalue = (int)(z * 1000);
int intWvalue = (int)(w * 1000);
string TrsSt = GetStationsName(module);
if (string.IsNullOrEmpty(TrsSt))
{
EV.PostAlarmLog("Robot", "Invalid Paramter.");
return false;
}
string strpara = $"E,{TrsSt},{slot:D2},A,{(arm == RobotArmEnum.Both ? "F" : ((int)arm+1).ToString())},P4";
if (x != 0 || y != 0 || z != 0)
{
strpara += $",{intXvalue:D8},{intYvalue:D8},{intZvalue:D8}";
}
if (w != 0)
{
strpara += $",{intWvalue:D8}";
}
lock (_locker)
{
if (_lstHandlers.Count == 0 && !_connection.IsBusy)
{
ExecuteHandler(new SR100RobotMotionHandler(this, "MTRS", strpara));
}
else
{
_lstHandlers.AddLast(new SR100RobotMotionHandler(this, "MTRS", strpara));
}
}
return true;
}
catch (Exception ex)
{
LOG.Write(ex);
return false;
}
}
protected override bool fSwapComplete(object[] param)
{
RobotArmEnum arm = (RobotArmEnum)CurrentParamter[0];
ModuleName sourcemodule;
if (!Enum.TryParse(CurrentParamter[1].ToString(), out sourcemodule)) return false;
int Sourceslotindex;
if (!int.TryParse(CurrentParamter[2].ToString(), out Sourceslotindex)) return false;
int delayCount = 0;
if (arm == RobotArmEnum.Lower)
{
//WaferManager.Instance.WaferMoved(sourcemodule, Sourceslotindex, RobotModuleName, 0);
//WaferManager.Instance.WaferMoved(RobotModuleName, 1, sourcemodule, Sourceslotindex);
while (!isSimulatorMode && !(GetWaferState(RobotArmEnum.Lower) == RobotArmWaferStateEnum.Present
&& GetWaferState(RobotArmEnum.Upper) == RobotArmWaferStateEnum.Absent))
{
delayCount++;
Thread.Sleep(50);
LOG.Write($"{RobotModuleName} delay {delayCount} time to detect wafer");
if (delayCount >100)
{
OnError("Wafer detect error");
return true;
}
}
WaferManager.Instance.WaferMoved(sourcemodule, Sourceslotindex, RobotModuleName, 0);
WaferManager.Instance.WaferMoved(RobotModuleName, 1, sourcemodule, Sourceslotindex);
}
if (arm == RobotArmEnum.Upper)
{
//WaferManager.Instance.WaferMoved(sourcemodule, Sourceslotindex, RobotModuleName, 1);
//WaferManager.Instance.WaferMoved(RobotModuleName, 0, sourcemodule, Sourceslotindex);
delayCount = 0;
while (!isSimulatorMode && !(GetWaferState(RobotArmEnum.Upper) == RobotArmWaferStateEnum.Present &&
GetWaferState(RobotArmEnum.Lower) == RobotArmWaferStateEnum.Absent))
{
delayCount++;
Thread.Sleep(50);
LOG.Write($"{RobotModuleName} delay {delayCount} time to detect wafer");
if (delayCount > 100)
{
OnError("Wafer detect error");
return true;
}
}
WaferManager.Instance.WaferMoved(sourcemodule, Sourceslotindex, RobotModuleName, 1);
WaferManager.Instance.WaferMoved(RobotModuleName, 0, sourcemodule, Sourceslotindex);
}
return base.fSwapComplete(param);
}
protected override bool fStartPlaceWafer(object[] param)
{
try
{
RobotArmEnum arm = (RobotArmEnum)param[0];
ModuleName module = (ModuleName)Enum.Parse(typeof(ModuleName), param[1].ToString());
if (ModuleHelper.IsLoadPort(module))
{
var lp = DEVICE.GetDevice<LoadPortBaseDevice>(module.ToString());
if (lp != null && !lp.NoteTransferStart())
return false;
}
Blade1Target = module;
Blade2Target = module;
int slot = (int)param[2]+1;
float x=0, y=0, z=0, w=0;
if(param.Length >3)
{
x = (float)param[3];
y= (float)param[4];
z= (float)param[5];
w = (float)param[6];
}
int intXvalue = Convert.ToInt32(x * 1000);
int intYvalue = Convert.ToInt32(y * 1000);
int intZvalue = Convert.ToInt32(z * 1000);
int intWvalue = Convert.ToInt32(w * 1000);
string TrsSt = GetStationsName(module);
if(string.IsNullOrEmpty(TrsSt))
{
EV.PostAlarmLog("Robot", "Invalid Parameter.");
return false;
}
string strpara = $"P,{TrsSt},{slot:D2},A,{(arm == RobotArmEnum.Both ? "F" : ((int)arm+1).ToString())},P4";
if(x!=0 ||y!=0||z!=0)
{
string strxoffset = intXvalue >= 0 ? $"{intXvalue:D8}" : $"{intXvalue:D7}";
string stryoffset = intYvalue >= 0 ? $"{intYvalue:D8}" : $"{intYvalue:D7}";
string strzoffset = intZvalue >= 0 ? $"{intZvalue:D8}" : $"{intZvalue:D7}";
string strwoffset = intWvalue >= 0 ? $"{intWvalue:D8}" : $"{intWvalue:D7}";
strpara += $",{strxoffset},{stryoffset},{strzoffset},{strwoffset}";
}
if(w!=0)
{
strpara += $",{intWvalue:D8}";
}
lock(_locker)
{
if(_lstHandlers.Count ==0 && !_connection.IsBusy)
{
ExecuteHandler(new SR100RobotMotionHandler(this, "MTRS", strpara));
}
else
{
_lstHandlers.AddLast(new SR100RobotMotionHandler(this, "MTRS", strpara));
}
}
return true;
}
catch(Exception ex)
{
LOG.Write(ex);
return false;
}
}
protected override bool fPlaceComplete(object[] param)
{
RobotArmEnum arm = (RobotArmEnum)CurrentParamter[0];
ModuleName sourcemodule;
if (!Enum.TryParse(CurrentParamter[1].ToString(), out sourcemodule)) return false;
int Sourceslotindex;
if (!int.TryParse(CurrentParamter[2].ToString(), out Sourceslotindex)) return false;
int delayCount = 0;
if (arm == RobotArmEnum.Lower)
{
//WaferManager.Instance.WaferMoved(RobotModuleName, 0, sourcemodule, Sourceslotindex);
while (!isSimulatorMode && GetWaferState(arm) != RobotArmWaferStateEnum.Absent)
{
delayCount++;
Thread.Sleep(50);
LOG.Write($"{RobotModuleName} delay {delayCount} time to detect wafer");
if (delayCount > 100)
{
OnError("Wafer detect error");
return true;
}
}
WaferManager.Instance.WaferMoved(RobotModuleName, 0, sourcemodule, Sourceslotindex);
}
if (arm == RobotArmEnum.Upper)
{
//WaferManager.Instance.WaferMoved(RobotModuleName, 1, sourcemodule, Sourceslotindex);
delayCount = 0;
while (!isSimulatorMode && GetWaferState(arm) != RobotArmWaferStateEnum.Absent)
{
delayCount++;
Thread.Sleep(50);
LOG.Write($"{RobotModuleName} delay {delayCount} time to detect wafer");
if (delayCount > 100)
{
OnError("Wafer detect error");
return true;
}
}
WaferManager.Instance.WaferMoved(RobotModuleName, 1, sourcemodule, Sourceslotindex);
}
if (arm == RobotArmEnum.Both)
{
//WaferManager.Instance.WaferMoved(RobotModuleName, 0, sourcemodule, Sourceslotindex);
//WaferManager.Instance.WaferMoved(RobotModuleName, 1, sourcemodule, Sourceslotindex);
while (!isSimulatorMode && GetWaferState(arm) != RobotArmWaferStateEnum.Absent)
{
delayCount++;
Thread.Sleep(50);
LOG.Write($"{RobotModuleName} delay {delayCount} time to detect wafer");
if (delayCount > 100)
{
OnError("Wafer detect error");
return true;
}
}
WaferManager.Instance.WaferMoved(RobotModuleName, 0, sourcemodule, Sourceslotindex);
WaferManager.Instance.WaferMoved(RobotModuleName, 1, sourcemodule, Sourceslotindex+1);
}
return base.fPlaceComplete(param);
}
protected override bool fStartPickWafer(object[] param)
{
try
{
RobotArmEnum arm = (RobotArmEnum)param[0];
ModuleName module = (ModuleName)Enum.Parse(typeof(ModuleName), param[1].ToString());
if (ModuleHelper.IsLoadPort(module))
{
var lp = DEVICE.GetDevice<LoadPortBaseDevice>(module.ToString());
if (lp != null && !lp.NoteTransferStart())
return false;
}
Blade1Target = module;
Blade2Target = module;
int slot = (int)param[2]+1;
float x = 0, y = 0, z = 0, w = 0;
if (param.Length > 3)
{
x = (float)param[3];
y = (float)param[4];
z = (float)param[5];
w = (float)param[6];
}
int intXvalue = Convert.ToInt32(x * 1000);
int intYvalue = Convert.ToInt32(y * 1000);
int intZvalue = Convert.ToInt32(z * 1000);
int intWvalue = Convert.ToInt32(w * 1000);
string TrsSt = GetStationsName(module);
if (string.IsNullOrEmpty(TrsSt))
{
EV.PostAlarmLog("Robot", "Invalid Paramter.");
return false;
}
string strpara = $"G,{TrsSt},{slot:D2},A,{(arm == RobotArmEnum.Both ? "F" : ((int)arm+1).ToString())},G4";
if (x != 0 || y != 0 || z != 0)
{
string strxoffset = intXvalue >= 0 ? $"{intXvalue:D8}" : $"{intXvalue:D7}";
string stryoffset = intYvalue >= 0 ? $"{intYvalue:D8}" : $"{intYvalue:D7}";
string strzoffset = intZvalue >= 0 ? $"{intZvalue:D8}" : $"{intZvalue:D7}";
string strwoffset = intWvalue >= 0 ? $"{intWvalue:D8}" : $"{intWvalue:D7}";
strpara += $",{strxoffset},{stryoffset},{strzoffset},{strwoffset}";
}
if (w != 0)
{
strpara += $",{intWvalue:D8}";
}
lock (_locker)
{
if (_lstHandlers.Count == 0 && !_connection.IsBusy)
{
ExecuteHandler(new SR100RobotMotionHandler(this, "MTRS", strpara));
}
else
{
_lstHandlers.AddLast(new SR100RobotMotionHandler(this, "MTRS", strpara));
}
}
return true;
}
catch (Exception ex)
{
LOG.Write(ex);
return false;
}
}
protected override bool fPickComplete(object[] param)
{
RobotArmEnum arm = (RobotArmEnum)CurrentParamter[0];
ModuleName sourcemodule;
if (!Enum.TryParse(CurrentParamter[1].ToString(), out sourcemodule)) return false;
int SourceslotIndex;
if (!int.TryParse(CurrentParamter[2].ToString(), out SourceslotIndex)) return false;
int delayCount = 0;
if (arm == RobotArmEnum.Lower)
{
//WaferManager.Instance.WaferMoved(sourcemodule, SourceslotIndex, RobotModuleName, 0);
while (!isSimulatorMode && GetWaferState(arm) != RobotArmWaferStateEnum.Present)
{
delayCount++;
LOG.Write($"{RobotModuleName} delay {delayCount} time to detect wafer");
Thread.Sleep(50);
if (delayCount > 100)
{
OnError("Wafer detect error");
return true;
}
}
WaferManager.Instance.WaferMoved(sourcemodule, SourceslotIndex, RobotModuleName, 0);
}
if (arm == RobotArmEnum.Upper)
{
//WaferManager.Instance.WaferMoved(sourcemodule, SourceslotIndex, RobotModuleName, 1);
while (!isSimulatorMode && GetWaferState(arm) != RobotArmWaferStateEnum.Present)
{
delayCount++;
LOG.Write($"{RobotModuleName} delay {delayCount} time to detect wafer");
Thread.Sleep(50);
if (delayCount > 100)
{
OnError("Wafer detect error");
return true;
}
}
WaferManager.Instance.WaferMoved(sourcemodule, SourceslotIndex, RobotModuleName, 1);
}
if (arm == RobotArmEnum.Both)
{
//WaferManager.Instance.WaferMoved(sourcemodule, SourceslotIndex, RobotModuleName, 0);
//WaferManager.Instance.WaferMoved(sourcemodule, SourceslotIndex, RobotModuleName, 1);
while (!isSimulatorMode && GetWaferState(arm) != RobotArmWaferStateEnum.Present)
{
delayCount++;
LOG.Write($"{RobotModuleName} delay {delayCount} time to detect wafer");
Thread.Sleep(50);
if (delayCount > 100)
{
OnError("Wafer detect error");
return true;
}
}
WaferManager.Instance.WaferMoved(sourcemodule, SourceslotIndex, RobotModuleName, 0);
WaferManager.Instance.WaferMoved(sourcemodule, SourceslotIndex+1, RobotModuleName, 1);
}
return base.fPickComplete(param);
}
protected override bool fResetToReady(object[] param)
{
if (_doRobotHold != null)
_doRobotHold.SetTrigger(true, out _);
return true ;
}
protected override bool fReset(object[] param)
{
if(!_connection.IsConnected)
{
_address = SC.GetStringValue($"{_scRoot}.{Name}.Address");
_enableLog = SC.GetValue<bool>($"{_scRoot}.{Name}.EnableLogMessage");
_connection = new YaskawaRobotConnection(this, _address);
_connection.EnableLog(_enableLog);
_connection.Connect();
}
lock (_locker)
{
if (_doRobotHold != null)
_doRobotHold.SetTrigger(true, out _);
_lstHandlers.Clear();
_connection.ForceClear();
_lstHandlers.AddLast(new SR100RobotMotionHandler(this, "CCLR", "E"));
_lstHandlers.AddLast(new SR100RobotReadHandler(this, "RSTS"));
}
return true;
}
protected override bool fError(object[] param)
{
return true;
}
protected override bool fStartExtendForPick(object[] param)
{
return false;
}
protected override bool fStartExtendForPlace(object[] param)
{
return false;
}
protected override bool fStartRetractFromPick(object[] param)
{
return false;
}
protected override bool fStartRetractFromPlace(object[] param)
{
return false;
}
public override RobotArmWaferStateEnum GetWaferState(RobotArmEnum arm)
{
if (arm == RobotArmEnum.Lower)
{
if (_diRobotBlade1WaferOn != null)
{
if (_diRobotBlade1WaferOn.Value) return RobotArmWaferStateEnum.Absent;
else return RobotArmWaferStateEnum.Present;
}
return IsWaferPresenceOnBlade1 ? RobotArmWaferStateEnum.Present : RobotArmWaferStateEnum.Absent;
}
if(arm == RobotArmEnum.Upper)
{
if (_diRobotBlade2WaferOn != null)
{
if (_diRobotBlade2WaferOn.Value) return RobotArmWaferStateEnum.Absent;
else return RobotArmWaferStateEnum.Present;
}
return IsWaferPresenceOnBlade2 ? RobotArmWaferStateEnum.Present : RobotArmWaferStateEnum.Absent;
}
if(arm == RobotArmEnum.Both)
{
if (_diRobotBlade1WaferOn != null && _diRobotBlade2WaferOn != null)
{
if (_diRobotBlade2WaferOn.Value && _diRobotBlade1WaferOn.Value)
return RobotArmWaferStateEnum.Absent;
else if (!_diRobotBlade2WaferOn.Value && !_diRobotBlade1WaferOn.Value)
return RobotArmWaferStateEnum.Present;
else return RobotArmWaferStateEnum.Unknown;
}
if (IsWaferPresenceOnBlade1 && IsWaferPresenceOnBlade2)
{
return RobotArmWaferStateEnum.Present;
}
if((!IsWaferPresenceOnBlade1)&&!IsWaferPresenceOnBlade2)
{
return RobotArmWaferStateEnum.Absent;
}
}
return RobotArmWaferStateEnum.Unknown;
}
public void NoteError(string errortext)
{
OnError(errortext);
}
public void SenACK()
{
_connection.SendAck();
}
public override bool OnActionDone(object[] param)
{
Blade1Target = ModuleName.System;
Blade2Target = ModuleName.System;
IsBusy = false;
ModuleName sourcemodule;
if (CurrentParamter!=null && CurrentParamter.Length >2 && Enum.TryParse(CurrentParamter[1].ToString(), out sourcemodule))
{
if(ModuleHelper.IsLoadPort(sourcemodule))
{
var lp = DEVICE.GetDevice<LoadPortBaseDevice>(sourcemodule.ToString());
if (lp != null)
lp.NoteTransferStop();
}
}
if (_lstHandlers.Count == 0)
{
IsBusy = false;
return base.OnActionDone(param);
}
return true;
}
public override void Terminate()
{
_thread.Stop();
if (!SC.ContainsItem($"{_scRoot}.{Name}.CloseConnectionOnShutDown") || SC.GetValue<bool>($"{_scRoot}.{Name}.CloseConnectionOnShutDown"))
{
LOG.Write("Close connection for" + RobotModuleName.ToString());
_connection.Disconnect();
}
base.Terminate();
}
}
public class YaskawaTokenGenerator
{
private int _last = 0;
List<int> _pool = new List<int>();
SCConfigItem scToken = null;
public int CurrentToken => _last;
public YaskawaTokenGenerator(string scName)
{
scToken = SC.GetConfigItem(scName);
if (scToken == null)
_last = scToken.IntValue;
Random r = new Random();
_last = r.Next() % 20;
}
public int create()
{
int first = _last;
int token = first;
do
{
token = (token + 1) % 100;
if (_pool.Contains(token))
continue;
_pool.Add(token);
_last = token;
scToken.IntValue = _last;
return _last;
} while (token != first);
throw (new ExcuteFailedException("Get token failed,pool is full"));
}
public void release(int token)
{
_pool.Remove(token);
}
public void release()
{
_last = 0;
_pool.Clear();
}
}
public enum YaskawaPositonEnum
{
RegisteredPosition,
ReadyPosition,
IntermediatePosition,
MappingStartPosition,
MappingFinishPosition,
}
}
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